def _make_node_path(self, xpub, address_n): _, depth, fingerprint, child_num, chain_code, key = deserialize_xpub(xpub) node = self.types.HDNodeType( depth=depth, fingerprint=int.from_bytes(fingerprint, 'big'), child_num=int.from_bytes(child_num, 'big'), chain_code=chain_code, public_key=key, ) return self.types.HDNodePathType(node=node, address_n=address_n)
def get_xpub(self, bip32_path, xtype): assert xtype in self.plugin.SUPPORTED_XTYPES reply = self._get_xpub(bip32_path) if reply: xpub = reply['xpub'] # Change type of xpub to the requested type. The firmware # only ever returns the mainnet standard type, but it is agnostic # to the type when signing. if xtype != 'standard' or constants.net.TESTNET: _, depth, fingerprint, child_number, c, cK = deserialize_xpub(xpub, net=constants.BitcoinMainnet) xpub = serialize_xpub(xtype, c, cK, depth, fingerprint, child_number) return xpub else: raise Exception('no reply')
def get_xpub(self, bip32_path, xtype): assert xtype in ('standard', 'p2wpkh-p2sh') reply = self._get_xpub(bip32_path) if reply: xpub = reply['xpub'] # Change type of xpub to the requested type. The firmware # only ever returns the standard type, but it is agnostic # to the type when signing. if xtype != 'standard': _, depth, fingerprint, child_number, c, cK = deserialize_xpub(xpub) xpub = serialize_xpub(xtype, c, cK, depth, fingerprint, child_number) return xpub else: raise BaseException('no reply')
def mitm_verify(self, sig, expect_xpub): # verify a signature (65 bytes) over the session key, using the master bip32 node # - customized to use specific EC library of Electrum. from electrum.ecc import ECPubkey xtype, depth, parent_fingerprint, child_number, chain_code, K_or_k \ = bitcoin.deserialize_xpub(expect_xpub) pubkey = ECPubkey(K_or_k) try: pubkey.verify_message_hash(sig[1:65], self.session_key) return True except: return False
def get_xpub(self, bip32_path, xtype): assert xtype in ColdcardPlugin.SUPPORTED_XTYPES print_error('[coldcard]', 'Derive xtype = %r' % xtype) xpub = self.dev.send_recv(CCProtocolPacker.get_xpub(bip32_path), timeout=5000) # TODO handle timeout? # change type of xpub to the requested type try: __, depth, fingerprint, child_number, c, cK = deserialize_xpub(xpub) except InvalidMasterKeyVersionBytes: raise Exception(_('Invalid xpub magic. Make sure your {} device is set to the correct chain.') .format(self.device)) from None if xtype != 'standard': xpub = serialize_xpub(xtype, c, cK, depth, fingerprint, child_number) return xpub
def update(self, window): wallet = window.wallet if type(wallet) != Multisig_Wallet: return if self.listener is None: self.print_error("starting listener") self.listener = Listener(self) self.listener.start() elif self.listener: self.print_error("shutting down listener") self.listener.stop() self.listener = None self.keys = [] self.cosigner_list = [] for key, keystore in wallet.keystores.items(): xpub = keystore.get_master_public_key() K = bitcoin.deserialize_xpub(xpub)[-1] _hash = bh2u(bitcoin.Hash(K)) if not keystore.is_watching_only(): self.keys.append((key, _hash, window)) else: self.cosigner_list.append((window, xpub, K, _hash)) if self.listener: self.listener.set_keyhashes([t[1] for t in self.keys])
def xpub2btc(xpub): _xtype, _depth, _fp, _cn, _c, K = bitcoin.deserialize_xpub(xpub) return bitcoin.pubkey_to_address("p2wpkh-p2sh", util.bh2u(K))
def _xpub_to_gpg_pub(xpub: str) -> str: _, _, _, _, _, pubk = deserialize_xpub(xpub) pubkey = bh2u(point_to_ser(ser_to_point(pubk), compressed=False)) return pubkey
#!./venv/bin/python from electrum import bitcoin, util import sys lines = [x.strip() for x in sys.stdin.readlines()] if len(lines) != 1: print("wrong input") sys.exit(1) _xtype, _depth, _fp, _cn, _c, K = bitcoin.deserialize_xpub(lines[0]) type = "p2pkh" if len(sys.argv) == 2: type = sys.argv[1] pubkey = bitcoin.pubkey_to_address(type, util.bh2u(K)) print(pubkey)